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The commercialization of nonfullerene organic solar cells (OSCs) critically relies on the response under typical operating conditions (for instance, temperature and humidity) and the ability of scale‐up. Despite the rapid increase in power conversion efficiency (PCE) of spin‐coated devices fabricated in a protective atmosphere, the efficiencies of printed nonfullerene OSC devices by blade coating...
Realizing over 10% efficiency in printed organic solar cells via scalable materials and less toxic solvents remains a grand challenge. In article number 1705485, Harald Ade and co‐workers report chlorine‐free, in‐air blade‐coating of a new photoactive combination, FTAZ:IT‐M, which is able to yield an efficiency of nearly 11%, despite a high humidity of ≈50%.
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